Batches of adult Nebria brevicollis (F.) (Coleoptera: Carabidae) were
provided with freeze-killed aphids, Metopolophium dirhodum (Walk.) (Ho
moptera: Aphididae), that had been treated topically with 30 ng a.i. d
eltamethrin. Beetles in different hunger states were found to consume
contaminated aphids, but they consumed significantly fewer aphids than
control beetles. The mean numbers of contaminated aphids eaten increa
sed with hunger-level, from 2.5 aphids per beetle for those provided w
ith food 24 h before exposure, to 4.5 aphids per beetle for those prov
ided with food 120 h prior to exposure. The highest mortality that occ
urred over the following six days after consumption of contaminated ap
hids was 27 % for the beetles that had been fed 120 h before exposure
and the lowest was 13 % for the beetles that had been fed 24 and 48 h
prior to exposure. A regurgitation response was observed in 53-80 % of
the beetles that had consumed deltamethrin-treated aphids. The beetle
s that survived consumption of treated aphids showed a short-term redu
ction in mean numbers of untreated aphids consumed relative to the con
trol beetles. Dietary and topical dose-response data for deltamethrin
and N. brevicollis were compared by probit analysis and maximum likeli
hood procedures. The dietary exposure probit line had a significantly
steeper slope than the topical exposure probit line but the two lines
occupied similar positions along the dose axis. The steepness of the d
ietary exposure probit line may be partly explained by the regurgitati
on response shown by the beetles, which causes water loss and may ampl
ify toxic effects. The results indicated that the consumption of delta
methrin-contaminated prey may be an important cause of predator mortal
ity soon after pesticide application.